High-frequency performance of diamond field-effect transistor

抜粋

The microwave performance of a diamond metal-semiconductor field-effect transistor (MESFET) is reported for the first time. MESFETs with a gate length of 2-3 μm and a source-gate spacing of 0.1 μm were fabricated on the hydrogen-terminated surface of an undoped diamond film grown by microwave plasma chemical vapor deposition (CVD) utilizing a self-aligned gate fabrication process. A maximum transconductance of 70 mS/mm was obtained on a 2 μm gate MESFET at VGS = -1.5 V and VDS = -5 V, for which a cutoff frequency fT and a maximum oscillating frequency fmax of 2.2 GHz and 7 GHz were obtained, respectively.

abstract = "The microwave performance of a diamond metal-semiconductor field-effect transistor (MESFET) is reported for the first time. MESFETs with a gate length of 2-3 μm and a source-gate spacing of 0.1 μm were fabricated on the hydrogen-terminated surface of an undoped diamond film grown by microwave plasma chemical vapor deposition (CVD) utilizing a self-aligned gate fabrication process. A maximum transconductance of 70 mS/mm was obtained on a 2 μm gate MESFET at VGS = -1.5 V and VDS = -5 V, for which a cutoff frequency fT and a maximum oscillating frequency fmax of 2.2 GHz and 7 GHz were obtained, respectively.",

N2 - The microwave performance of a diamond metal-semiconductor field-effect transistor (MESFET) is reported for the first time. MESFETs with a gate length of 2-3 μm and a source-gate spacing of 0.1 μm were fabricated on the hydrogen-terminated surface of an undoped diamond film grown by microwave plasma chemical vapor deposition (CVD) utilizing a self-aligned gate fabrication process. A maximum transconductance of 70 mS/mm was obtained on a 2 μm gate MESFET at VGS = -1.5 V and VDS = -5 V, for which a cutoff frequency fT and a maximum oscillating frequency fmax of 2.2 GHz and 7 GHz were obtained, respectively.

AB - The microwave performance of a diamond metal-semiconductor field-effect transistor (MESFET) is reported for the first time. MESFETs with a gate length of 2-3 μm and a source-gate spacing of 0.1 μm were fabricated on the hydrogen-terminated surface of an undoped diamond film grown by microwave plasma chemical vapor deposition (CVD) utilizing a self-aligned gate fabrication process. A maximum transconductance of 70 mS/mm was obtained on a 2 μm gate MESFET at VGS = -1.5 V and VDS = -5 V, for which a cutoff frequency fT and a maximum oscillating frequency fmax of 2.2 GHz and 7 GHz were obtained, respectively.